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I am very new to python, and as a project I decided to write my Mathematica project in python to see how it works, hence the code is written in as close a style to Mathematica as possible.

I am struggling to call a value from an interpolated function, in a simple working example I want to do this:

import numpy as np
from scipy.interpolate import interp1d

a = np.linspace(1,10,10)
b = np.sin(a)
inter = interp1d(a,b)

# this is where i get a value from the interpolated function
s0 = inter(a[0])
print(s0)

This is my MWE that does not work:

import matplotlib
import numpy as np
import matplotlib.pyplot as plt
from sympy import *
from scipy import integrate
from scipy.interpolate import interp1d

E0 = -0.015
L = 5.5
Ns = 1000


# this solves for where the energy E0 intersects the potential y
def req(E0):
    L=5.5
    r = Symbol('r')
    y = -(2*L**2)/(r**3)+(L**2)/(r**2)-(2)/(r)
    rr = (E0-y)*(r**4)
    rreq = Eq(rr, 0)
    rrt = sorted(solve(rr), key=int)
    return rrt 

# upper and lower limits on r
r1 = req(E0)[1]
r0 = req(E0)[2]

# initialise the arrays
a = np.array([1])
b = np.array([1])

# numerically integrate the function R(r)
for n in range(2, Ns):
    # integrate 
    lwlmt = r0
    uplmt = r0+(n-1)*(r1-r0)/(Ns-1)

    result, error = integrate.quad(lambda ra: -1/((E0-(-(2*L**2)/(ra**3)+(L**2)/(ra**2)-(2)/(ra)))*(ra**4))**(0.5), r0, uplmt)

    a = np.append([uplmt],[[a]])
    b = np.append([result],[[b]])

# chop the 1 from the end
aa = a[:-1]
ba = b[:-1]

# interpolate
inter = interp1d(aa,ba)

# this is the problem
print(inter(110))

# this is what i would ideally like to do,
# get the start and end points however i receive an error
s0 = inter(aa[0])
s1 = inter(aa[len(aa)-1])


plt.plot(aa,inter(aa))
plt.show()

Strangely my MWE only works if I use the entire array as an argument inter(aa) it returns a list of interpolated points. I can't work out why the first example works, while the second one doesn't. Both arrays appear to be the same, however only the first example actually produces an output.

EDIT: adding the error returned

---------------------------------------------------------------------------
AttributeError                            Traceback (most recent call last)
/home/nick/Documents/python/<ipython-input-4-b36b3f397c2e> in <module>()
     45 # this is what i would ideally like to do,

     46 # get the start and end points

---> 47 s0 = inter(aa[1])
     48 s1 = inter(aa[len(aa)-1])
     49 

/usr/lib/python2.7/dist-packages/scipy/interpolate/interpolate.pyc in __call__(self, x_new)
    364         # from y_new and insert them where self.axis was in the list of axes.

    365         nx = x_new.ndim
--> 366         ny = y_new.ndim
    367 
    368         # 6. Fill any values that were out of bounds with fill_value.


AttributeError: 'Float' object has no attribute 'ndim'

This is the error for any number I put in the val argument inter([val]), that is in the range of aa.

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1  
can you be a bit more specific for 'does not work': produces wrong results, gives an error (what is the traceback) etc? –  ev-br May 17 '13 at 12:04

1 Answer 1

up vote 1 down vote accepted

The result of req() is a sympy object rather than a real Python float, and thus, uplmt is also a sympy object. numpy's numerical routines do not know what to do with these sympy objects. Convert to Python float objects early.

On my machine, the values of r0 and r1 are actually complex, just with tiny imaginary components, and they cause an error earlier than the one you show. It's easy to convert them, though:

# upper and lower limits on r
r1 = complex(req(E0)[1]).real
r0 = complex(req(E0)[2]).real

After I make that change, your script executes to completion for me, though I cannot guarantee that it is giving you your desired numerical result.

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Thank you for your answer, this has done exactly what I want/ –  Nick Rhodes May 17 '13 at 12:58

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